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Professor Leonard Adleman University of Southern California

The Tiniest Treasure Chest. Professor Leonard Adleman University of Southern California. The Tiniest Treasure Chest. http://www.nen.com. Image: www.ebi.ac.au Video: Drew Berry www.wehi.edu.au. Extremely Small. Polymerase DNA Polymerase Beta, Courtesy Zdenek Hostomsky.

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Professor Leonard Adleman University of Southern California

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  1. The Tiniest Treasure Chest Professor Leonard Adleman University of Southern California

  2. The Tiniest Treasure Chest http://www.nen.com

  3. Image: www.ebi.ac.au Video: Drew Berry www.wehi.edu.au

  4. Extremely Small Polymerase DNA Polymerase Beta, Courtesy Zdenek Hostomsky

  5. Extremely Small Polymerase 1ml 5,000,000,000,000,000,000 molecules

  6. Extremely Energy Efficient Ligase http://www.icnet.uk/labs/wigley/projects/ligase/lig1.htm

  7. Extremely Energy Efficient Ligase 1 Joule 20,000,000,000,000,000,000operations http://www.icnet.uk/labs/wigley/projects/ligase/lig1.htm

  8. Extreme Information Density DNA http://www.uwec.edu/academic/curric/scalesjb/images/DNA/dna%20collection.htm

  9. One gram DNAvsOne CD

  10. Extreme Information Density DNA 1 gram 4,000,000,000,000,000,000,000 bits http://www.uwec.edu/academic/curric/scalesjb/images/DNA/dna%20collection.htm

  11. The Tiniest Treasure Chest http://www.nen.com

  12. ?

  13. The Theory of Computation

  14. Computing is Easy 1. A METHOD FOR STORING INFORMATION 2. A FEW SIMPLE OPERATIONS FOR ACTING ON INFORMATION

  15. Computing is Easy 1. A METHOD FOR STORING INFORMATION 2. A FEW SIMPLE OPERATIONS FOR ACTING ON INFORMATION

  16. Computing is Easy 1. A METHOD FOR STORING INFORMATION 2. A FEW SIMPLE OPERATIONS FOR ACTING ON INFORMATION

  17. 1994 Experiment DNA COMPUTER

  18. Fastest Computer Most Energy Efficient Computer

  19. Actual Image of Actual Object

  20. Paul W.K. Rothemund CalTech Actual Image of Actual Object

  21. Paul W.K. Rothemund CalTech Scale: 1:200,000,000,000,000

  22. Paul W.K. Rothemund CalTech Scale: 1:200,000,000,000,000 Size: 100 nanometers per side

  23. Paul W.K. Rothemund CalTech Scale: 1:200,000,000,000,000 Size: 100 nanometers per side Material: DNA

  24. Paul W.K. Rothemund CalTech Scale: 1:200,000,000,000,000 Size: 100 nanometers per side Material: DNA Method: Self-assembly

  25. Paul W.K. Rothemund CalTech Scale: 1:200,000,000,000,000 Size: 100 nanometers per side Material: DNA Method: Self-assembly Time: 1hr.

  26. Paul W.K. Rothemund CalTech Scale: 1:200,000,000,000,000 Size: 100 nanometers per side Material: DNA Method: Self-assembly Time: 1hr. (50,000,000,000/drop)

  27. Paul W.K. Rothemund CalTech

  28. Paul W.K. Rothemund CalTech

  29. Paul W.K. Rothemund CalTech

  30. Paul W.K. Rothemund CalTech

  31. Paul W.K. Rothemund CalTech

  32. Lulu Qian Shanghai Jiao Tong University

  33. The Tiniest Treasure Chest http://www.nen.com

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